MUSICIANS SHOW ADVANTAGES IN LONG TERM MEMORY
A peek inside the
brains of professional musicians has given University of Texas at Arlington
psychology researchers what may be the first links between music expertise and
advantages in long-term memory.
Heekyeong Park,
assistant professor of psychology, and graduate student James Schaeffer used
electroencephalography (EEG) technology to measure electrical activity of
neurons in the brains of 14 musicians and 15 non-musicians and noted processing
differences in the frontal and parietal lobe responses. The team will present
initial results of their new research Tuesday at Neuroscience 2014, the
international meeting of the Society for Neuroscience, in Washington, D.C.
"Musically
trained people are known to process linguistic materials a split second faster
than those without training, and previous research also has shown musicians
have advantages in working memory," said Park. "What we wanted to
know is whether there are differences between pictorial and verbal tasks and
whether any advantages extend to long-term memory. If proven, those advantages
could represent an intervention option to explore for people with cognitive
challenges."
Park's laboratory in
UT Arlington College of Science uses high tech imaging tools -- including EEG,
functional magnetic resonance imaging (fMRI), and functional near-infrared
spectroscopy (fNIRS) -- to research human cognitive neuroscience. To test
working memory, the study participants were asked to select pictorial or verbal
items that they'd just been given among similar lures. For long-term memory,
participants judged whether each test item was studied or new after the entire
study session was complete.
The musicians, all of
whom had been playing classical music for more than 15 years, outperformed
non-musicians in EEG-measured neural responses on the working memory tasks.
But, when long-term memory was tested, the enhanced sensitivity was only found
in memory for pictures.
The study has not
explored why the advantages might develop. Park said it's possible professional
musicians become more adept at taking in and processing a host of pictorial
cues as they navigate musical scores.
Park's abstract for
the conference reports that musicians' neural responses in the mid-frontal part
of the brain were 300 to 500 milliseconds faster than non musicians and
responses in the parietal lobe were 400 to 800 milliseconds faster than non
musicians. The parietal lobe is directly behind the frontal lobe of the brain
and is important for perceptual processing, attention and memory.
"Dr. Park's
research uses the latest scientific instrumentation to reveal knowledge about
human cognition that was previously unreachable," said James Grover,
interim dean of the UT Arlington College of Science. "It provides usable
information about far-reaching advantages arts training can bring."
Researchers hope to
test more musicians soon to strengthen the findings.
Whatever the mechanism
involved, Park said the new research is important because music is helpful for
long-term memory for non-verbal events and "we are all surrounded by non
verbal events."
"Our work is
adding evidence that music training is a good way to improve cognitive
abilities," she said.
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